DE3941892C2 - Suction jet pump for use in a fuel tank - Google Patents

Description

The invention relates to a suction jet pump for use in a fuel tank, consisting of a multi-part pump housing made of plastic with an inlet connector for the propellant, an outlet connection following a mixing tube into which one Driving nozzle is used, and one leading to the mixing tube suction nozzle.

In adaptation to the spatial conditions and to use the available space can be found in Kraftfahr witness fuel tanks use with two separate lowest points. From the area of a lowest point the suction of the fuel via a petrol pump, the Excess fuel to the carburetor or through an injection pre direction is led. To ensure that the Fuel tank in the area of the second lowest point to it is sufficient, the use of a suction jet pump in this area  have been proposed that are under pressure with the excess the amount of fuel is operated by the petrol pump. Already A suction jet pump with a langge was proposed stretched multi-part pump housing made of plastic, on its one end face an inlet port for the propellant and the other end in connection with a mixing pipe of the outlet trim is formed. Via one at the bottom of the pump block provided intake manifold of those placed on the tank bottom Suction jet pump is from the area of the second lowest point the fuel is drawn in and via a with the outlet nozzle connected pressure line to the other tank area. As a result the relatively wide entry and exit trim and the necessary large loop to be formed the relatively stiff pressure hoses that lead to a separate tank lead closure, there is a large unit for the ange closed suction jet pump. But such a unity can only be then mount in the fuel tank if a tank opening with ent speaking large diameter is provided. Correspondingly large Tank openings and their closure are undesirable.

The object of the invention is a suction jet pump for to propose the use in the fuel tanks described, whose construction volume is significantly lower with the same performance.

The task of the invention is solved with a suction jet pump all features of claim 1. As a result of the parallel arrangement of inlet and outlet connection can make the necessary connection cables are also run next to each other to save space. There in in this case no loops are to be formed on the pressure hoses, any tension pressure resulting from curvatures on the connections or the connection points of the multi-part Pump housing avoided. Such a pump construction enables a sloping arrangement in the tank. The pump can keep its shape Connection lines on the corresponding, to be kept relatively small Tank opening are fixed and usually protrudes in one Inclination with contact with the tank bottom in the  Tank. Adapted to tolerances and different tank heights takes the unit from the suction jet pump and connecting lines necessary inclination.

According to a preferred embodiment of the invention, according to An Say 5 on the intake manifold, in the installed position at the bottom The end of the pump is provided, one at the lid-like second A support web is formed on the side facing the housing part. According to the Claims 2 and 4 is the pump housing transverse to the axial direction of the Inlet and outlet nozzle divided. On a first housing the inlet pipe, the mixing tube with the Discharge nozzle and the intake manifold. Shock stress Chungen are on the support web on the first housing part wear which due to the attachment of the connecting cables is spring loaded. There is therefore a shock load on one Welded connection between the first and the second lid-like Housing part avoided.

The proposal according to claim 3 also belongs to the invention such formation of the suction jet pump leads to a favorable Kon construction of a 180 ° elbow guide that reduces pump losses in a simple design.

Based on an illustrated embodiment, the invention explained in more detail below. Show it:

Fig. 1 is a side view of a suction jet pump,

Fig. 2 shows a section along the line II in Fig. 1 and

Fig. 3 is a section along the line II-II in Fig. 2.

The illustrated suction jet pump made of plastic for use in a fuel tank consists of the first housing part 1 , the second housing part 2 attached thereto with a welded connection, and the inner driving nozzle 3 received with a molded-on projection 31 .

In a parallel arrangement next to one another, the inlet connection 11 and the mixing tube 12 are formed on the first housing part 1 with the connection of the outlet connection 13 . Axially opposite these two nozzles is formed in an inclined arrangement of the intake manifold 14 with a support web 15 which , in the installation situation, as shown in Fig. 2, stands on the bottom of a fuel tank denoted by the number 5 th The intake port 14 opens into the mixing tube 12 at its inlet 141 .

The lid-like second housing part 2 is positively inserted from below into the first housing part 1 and connected to it with a welded connection. It clamps the driving nozzle 3 , which is inserted into the mixing tube 12 in a form-fitting manner and is thus held in place. On this driving nozzle 3 is in the interior of the second hous seteiles 2 protruding semi-cylindrical projection 31 is formed, which forms with the corresponding inner contour of the housing part 2 , the number 4 designated 180 ° elbow guide, the connec tion from the inlet port 11 to the driving nozzle 3rd forms.

From Fig. 2 it can be seen that the suction jet pump in the installation situation only with its support web 15 on the tank bottom 5 is on. The second housing part 2 has no contact with this tank bottom.

Claims (5)

1. suction jet pump for use in a fuel tank, consisting of a multi-part pump housing made of plastic with an inlet connection for the propellant, an outlet connection following a mixing tube into which a propellant nozzle is inserted, and an intake nozzle leading to the mixing tube, characterized in that the inlet connection ( 11 ) for the propellant and the outlet connection ( 13 ) are arranged in parallel and in the same direction, and that the intake connection ( 14 ) is arranged in an oblique arrangement axially opposite these two connections, with the propellant through 180 ° through a bend ( 4 ) is redirected. 2. Suction jet pump according to claim 1, characterized in that the pump housing is divided transversely to the axial direction of the inlet or outlet connector ( 11 , 13 ), with the inlet connector ( 11 ), the mixing tube ( 12 ) integrally on a first housing part ( 1 ) ) are formed with the outlet connection ( 13 ) and the intake connection ( 14 ), and a second housing part ( 2 ) forming the manifold ( 4 ) is placed against this first housing part ( 1 ) in a cover-like manner, and that the two housing parts ( 1, 2 ) are connected by welding. 3. Suction jet pump according to claim 1 or 2, characterized in that a semi-cylindrical projection ( 31 ) forming a boundary wall of the elbow ( 4 ) is formed on the driving nozzle ( 3 ) used in the mixing tube ( 12 ). 4. Suction jet pump according to one or more of the preceding claims, characterized in that the cover-like second housing part ( 2 ) engages positively in the first housing part ( 1 ) and forms the inner support for the propellant nozzle ( 3 ) used in the mixing tube ( 12 ). 5. Suction jet pump according to one or more of the preceding claims, characterized in that a support web ( 15 ) is formed on the intake port ( 14 ) on the side facing the cover-like second housing part ( 2 ).